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I'm following the (excellent) Haskell tutorial at http://learnyouahaskell.com/starting-out and am trying out the right triangle example:

> let triangles = [(a,b,c) | c <- [1..10], b <- [1..10], a <- [1..10], a^2 + b^2 == c^2]

running this I get, as expected:

> triangles 

Now, I'd like to try using infinite lists instead:

> let triangles = [(a,b,c) | c <- [1..], b <- [1..], a <- [1..], a^2 + b^2 == c^2] 

But when I try it, like:

> take 2 triangles

...the programs just runs and runs with no output. What am I doing wrong? I thought Haskells laziness would cause it to find the two first triangles and then halt?

share|improve this question
It does take the first 2 right triangles and then halt. It just never gets to the first 2 right triangles. What you're trying to do is akin to defining the integers as (1,2,...,-1,-2,...). This doesn't work because the part before -1 is infinite. – Cubic Nov 15 '12 at 11:24
up vote 9 down vote accepted

Well, the laziness isn't the problem here. It's the order in which you're iterating the variables in the list.

Basically what happens is:

  1. c is bound to 1
  2. b is bound to 1
  3. a is bound to 1
  4. Equation is checked
  5. a is bound to 2
  6. Equation is checked
  7. a is bound to 3
  8. Equation is checked

and it goes on forever.

So the generator keeps on iterating and binding values for a, because it doesn't know that you need to stop and also increment b or c for a change.

So you need to generate tuples in more balanced ways.

You can use, for instance, this method:

triplesN :: Int -> [(Int, Int, Int)]
triplesN n = [(i, j, n - i - j) | i <- [1..n - 2], 
                                  j <- [1..n - i - 1], i>=j, 
                                  let k = n - i - j,   j>=k]

isTriangle (a, b, c) = a^2 == b^2 + c^2

triangles = filter isTriangle $ concatMap triplesN [1..]

tripleN generates all the ordered triples with sum n. By mapping this function over all the natural numbers we actually get the stream of all ordered pairs. And finally, we filter only those triples that are triangles.

By doing:

take 10 triangles

we get:


share|improve this answer
Ok, thanks. Something like that helps: > let triangles = [(a,b,c) | c <- [1..], b <- [1..c], a <- [1..c], a^2 + b^2 == c^2] – uzilan Nov 15 '12 at 11:26
Oh wow, I proposed a solution, but yours is even simpler and better. – Marius Danila Nov 15 '12 at 11:33

You may be interested in reading the article A Monad for Combinatorial Search on sigfpe's blog.

He defines a new monad called a Penalty List or PList, similar to the list monad, but which also has the concept of a penalty for more complex solutions. When you combine PLists, the order that the results are generated is the order smallest penalty --> largest penalty.

In your example, the penalty associated with an integer could be equal to the size of the integer, and the penalty associated with a tuple is the sum of the penalties of its elements. So the tuple (3,4,5) has penalty 3+4+5 = 12, and the tuple (5,12,13) has penalty 5+12+13 = 30.

With the list monad, the order of the tuples produced is

(1,1,1), (1,1,2), (1,1,3), (1,1,4), (1,1,5) ...

and you never see a tuple not of the form (1,1,x). With the PList monad, the tuples produced might be

(1,1,1), (1,1,2), (1,2,1), (2,1,1), (1,1,3), (1,3,1), (3,1,1), (1,2,2) ...

with all 'smaller' tuples generated before 'larger' ones.

For your particular problem this solution is overkill, but it can be very useful in more complex problems.

share|improve this answer
Interesting, thanks! – uzilan Nov 15 '12 at 12:23

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